Ammonia Absorption Refrigerators I’m going to date myself here, but when I was a child, I remember the old refrigerator my aunt and uncle once had in the garage that had this tower on the top of it that put out a lot of heat. Being inquisitive, I asked my uncle what that was and he said it was “a cooling tower”. I couldn’t understand why a “cooling” tower put out so much heat! Well that old refrigerator was an ammonia absorption refrigerator, manufactured well before the days Freon was popular as a refrigerant. In fact, the first absorption principal refrigerator was invented in 1858 and in 1923 the first ammonia absorption refrigerator was available for sale to the public. They replaced the old “ice box” which used blocks of ice for cooling (that’s where the nickname came from). Although Freon based refrigerators were available in the 1920’s and 1930’s, they didn’t become common household appliances until 1940’s, and has continued to be improved upon ever since. So why are they not around anymore – well guess what, you probably have one in your RV right now. As a matter of fact, ammonia absorption technology is still widely used today in commercial cooling applications, like packing houses. Ammonia absorption refrigeration technology has come a long ways since the days of the old “cooling tower” model. So why don’t you have a Freon based refrigerator in your RV? Well, many higher end RV’s do, but there are drawbacks I will discuss later. Basically it’s a matter of energy consumption and efficiency. All refrigerators are heat exchangers. How they exchange heat can differ depending on the type of refrigerant used, but the bottom line is they remove heat from food compartments and displace that heat to the outside environment thereby creating a cooling effect inside the food compartment. The drawback to a Freon based refrigerator’s use in an RV is the amount of energy it uses for the heat exchange. We all have one in our home, and no doubt you hear the compressor coming on and off during the cooling cycle. A basic Freon based refrigerator uses about 725 watts to operate (larger units with icemakers, dispensers, self-defrost and all the other goodies can significantly increase this number), or another RV friendly way of looking at it; it uses about 6.5 amps of your incoming shore power. No biggie, even a 30 amp system can handle that, right? Well, yes….but what about when you’re on the road or out dry camping, where’s that 6.5 amps going to come from? Well, if you’re driving down the road in a higher end RV, your genset or inverter can power it just fine. That’s why some higher end RV’s do have residential style refrigerators in them… and the inverter, battery bank and generator to operate it when dry camping. The reason the residential refrigerator uses so much electricity is the compressor that is required to create the heat exchange. Residential refrigerators have much better cooling efficiency over the ammonia absorption, but the ammonia absorption refrigerator has much better energy efficiency over a compressor driven system. For most of us RV’ers, a residential style refrigerator just wouldn’t be feasible. They always have to have 110VAC power to operate. Enter the ammonia absorption refrigerator. I could go on for quite a while about how the principal of ammonia absorption heat exchange works, but in reality there are only a few basics the RV’er should be concerned with: 1) Ammonia absorption refrigerators have no moving refrigeration parts; no pumps or compressors to circulate the refrigerant. 2) Ammonia absorption refrigerators use thermo-dynamics and gravity to operate (more on this later). 3) Ammonia absorption refrigerators can use different types of energy sources; 110VAC electricity, propane, or even 12VDC power to operate. 4) Ammonia absorption refrigerators use ammonia, hydrogen gas and water as the refrigerant. 5) Ammonia absorption systems are a closed system and never need recharging (unless a leak forms – more later). A pictorial and complete explanation of how the ammonia absorption system operates for those who really want to understand the complex process is available at the end of this article In a nutshell, the process begins with heat being applied to the “boiler”. The heat source can be a flame (LPG), a 110VAC heating element (AC mode) or a 12VDC heating element (DC mode – found on 3 way refrigerators). The boiler heats the refrigerant and begins the circulation process. Throughout the process the refrigerant continues to circulate within the cooling unit absorbing heat from the freezer and refrigerator compartments and displacing it to the outside. The circulation process is never ending, requiring only the outside heat source, thermo-dynamics and gravity to operate. The cooling unit is the “guts” of the ammonia absorption refrigerator. On most refrigerators, the cooling unit is replaceable, so in the event of a leak or failure of the cooling unit, the whole refrigerator does not need to be replaced, just the cooling unit. LEVELING: The pipes visible on the cooling unit are set at an exact angle to earth level. This allows the refrigerant to flow back to the bottom thanks to gravity. This is the reason it is so important for your refrigerator to be level when parked. If parked off-level, the refrigerant cannot flow uphill, and since there are no pumps or compressors to maintain flow, the refrigerant flow comes to a standstill. At this point, all sorts of maladies start to happen. The refrigerant in the boiler begins to superheat due to the lack of circulation. This can cause the boiler housing to crack and create a refrigerant leak. The super-heated mixture contains an anti-corrosive to protect the metal piping which can solidify and plug up the cooling unit. Continued use in an off- level condition can even cause a fire danger from the excessive heat in the boiler area. These issues start to happen rapidly, therefore it is very important that if the RV is going to be parked off-level for ANY length of time, turn the unit off. The interior will remain cold for a long time provided the doors are not opened. During travel, the constant motion of the RV keeps the refrigerant from stagnating and this is one of the great benefits of the ammonia absorption refrigerator is its ability to continue to operate during travel using only a minimal amount of energy to operate. It’s important to remember that although you may be operating your refrigerator in electrical mode or even LPG mode, the control circuit is powered by your 12VDC system. Therefore if you experience a problem with your 12VDC electrical or out dry camping and your 12VDC system voltage drops below 10.5VDC, your refrigerator control circuit can no longer function and the refrigerator will turn off. The main drawback to the ammonia absorption refrigerator is the efficiency of the units. When compared to a residential refrigerator, the ammonia absorption refrigerator has much less cooling efficiency. This is the trade-off for being able to operate with minimal energy usage. Whereas a residential refrigerator will reach temperature within 1-2 hours of being turned on, the ammonia absorption refrigerator can, depending on ambient temperature take anywhere from 4 to 24 hours to reach temperature. Ammonia absorption refrigerators are designed to keep cold food cold and frozen food frozen. When stocking your refrigerator, after it has reached temperature, it is important to put pre-refrigerated or pre-frozen items in it. Because of the limited efficiency of the units, if asked to bring room temperature items down to refrigerator temperature, you’re asking the cooling unit to remove a lot of heat. As an example, if you put in a cold 6 pack of soda, there is relatively small amount of heat that the unit has to dissipate in order to bring the sodas to refrigerator temperature. On the other hand, if you put in a warm 6 pack of soda, there is a tremendous amount of heat the unit has to remove to bring the sodas to refrigerator temperature, and it may take 4 or more hours to perform this task. In the meantime, the heat radiating from the warm 6 pack to its surroundings will inevitably cause the entire refrigerator temperature to rise before the 6 pack cools. The same principal holds true for the freezer section. You should try to avoid putting warm or hot left-overs in the ammonia absorption refrigerator for the same reason. Small amounts of left-overs at room temperature are usually not too much of a feat to ask the refrigerator to cool down, but be attentive to this limitation. Heat exchanger – what does that mean? Well, basically it is a device that moves heat from one location to another. Your air conditioner is one type of heat exchanger; it removes the heat from the interior of the vehicle and displaces it to the exterior of the vehicle. Once heat is removed, the resulting air feels cool, since the heat has been removed from it. That’s why if you go to your air conditioner’s exterior unit, you feel heat coming from it, that’s the heat it absorbed from the interior and is now displacing to the exterior of the vehicle. Refrigerators operate in the same manner; heat is removed from the food compartments and their contents and displaced to the ambient air outside the refrigerator.